Validation protocol

The page describes the validation protocol adopted to compare a dataset against a reference. In our case, this protocol concerns the comparison of satellite-based irradiation values against high quality ground station measurements, and is in line with the ISO norm and the WMO recommendations (References: ISO Guide 1995, WMO 1981, 2008).

For a better understanding of the indices...

In most of the publications, you will always find the results for a few indices to summarize the discrepancy between two datasets.

We chose the following indices:

The number of coincident values (NDATA in the graph below)

The mean observed value (MREF in the graph below)

The bias and the relative bias in percent (MBE in the graph below)

The RMSE and the relative RMSE in percent

The correlation coefficient

The graph below is a 2-D histogram, which represents the 10 min HelioClim-3 data versus the corresponding 10 min data from the Carpentras BSRN station after Quality Check for the almost 6 years of data available between 2004 and 2009.

Interpretation of the graph

The relative bias in percent is 1.7, which informs on a slight global overestimation of HelioClim-3 version 5 compared to the in-situ data over the 6 years of available data. The value corresponds to the distance between the black dashed and the red dashed lines (small double arrow). The slight overestimation is due to the orange cloud of points corresponding to low irradiation values, i.e. mainly the winter period. Ideal value is zero.

The standard deviation (STDE on this graph) gives an idea on the "spreading" of the cloud of points (large double arrow). However, most of the time, the RMSE is given instead. As RMSE includes both the bias and the standard deviation and when the bias is low, RMSE is close or slightly above the standard deviation. Ideal value is zero.

The correlation coefficient is an important index which cannot be easily represented on the graph. The closer to the ideal value of 1, the more "in phase" the two datasets ; In other words, the observation (in-situ data) and the estimation (HelioClim3-v5) should capture the weather transitions at the same instant.

The monthly relative bias

The above relative bias is computed over the whole period of data available. 1.7% is very low, and many users are expecting similar mean deviation values when retrieving for instance monthly. However, this is not the case. The relative bias computed over the whole period is hiding trends of errors which can occur within each season for instance. The following graph depicts the relative bias computed for each month of the year over the whole period of data.

One may see that the relative bias is positive and close to 4% in Winter and Autumn, and decreases in Spring and Summer, getting slightly negative in July. Please note that the relative bias may be greater in winter because it results from a division by a smaller mean observed value compared to summer.

Please also note that a calibration of the HelioClim-3 version 5 data with these measurements lead to a relative bias over the whole period of 0.4%, and decrease the relative bias per month by a factor of approx. 2!